Tong bearing

ABSTRACT

A renewable bearing is for a tong including a housing and an engagement assembly. The bearing has a monolithic upper bearing element having a substantially planar upper surface and a monolithic lower bearing element having a substantially planar lower surface. The upper and lower bearing elements are configured to mount inside the housing with a substantially same outer horizontal profile as the upper bearing element. The upper bearing element and the lower bearing element define a central open area. The upper bearing element and the lower bearing element have an inner section define a radial recess opening to the central opening and for receiving the engagement assembly. The upper bearing element and the lower bearing element have outer sections that form a bearing portion radially intermediate the engagement assembly.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention is directed to a TONG BEARING and in particular,to a machinable TONG BEARING that may be reconditioned for multiple usesand an extended useful life.

2. Description of the Prior Art

Tong systems are utilized in the oil well industry for attaching to andtightening various types of rods and tubing. Such tongs are utilizedwith a backup system that holds one element while a second element isgripped by the tong and rotated to connect and disconnect the twoelements.

A typical tong includes a housing around a gripping portion of the tong,with a gripping portion being driven and rotating relative to thehousing. Conventional tongs utilize a series of bearing elements tofacilitate rotational movement with less friction and wear. Suchrollers, ball bearings or other conventional bearings are subject to theharsh conditions encountered at a well or drilling site. Therefore, suchsingle use conventional bearings are subject to wear and/or failure,requiring frequent replacement. Moreover, in order to ensure smooth andcontinuous operation, multiple bearings are required at multiplepositions spaced apart on both the top and bottom of the tong housingaround the gripping assembly. The maintenance and replacement of thelarge number of bearings is both time consuming and expensive. Moreover,the maintenance required and high rate of failure can cause extendeddown time for the tong, affecting reliability, causing additional delaysand adding to operational costs.

It can be seen then that a new and improved bearing system is needed fortongs. Such a bearing system should eliminate the large number ofbearings and small parts currently needed. Moreover, the bearing systemshould provide for greater reliability and less down time. Such abearing should be easily removed and interchanged with other bearings.Moreover, the utility of such a bearing is improved if a bearing elementcan be reconditioned and used again. The present invention addressesthese as well as other problems associated with tong bearings.

SUMMARY OF THE INVENTION

The present invention is directed to a tong bearing, and in particularto a renewable tong bearing. The tong includes a housing and driveelements as well as a gripping portion. The bearing includes an upperbearing element and a lower bearing element. Each of the bearingelements includes a generally rounded planar base portion and mayinclude an open end or is closed to form a center opening. An innerannular raised portion is spaced radially outward from the centeropening and extends downward from the base for an upper bearing elementand upward from the base for a lower bearing element. An outer annularraised portion is adjacent the inner raised annular portion and extendsdownward from an upper bearing element and upward for a lower bearingelement in somewhat tiered configuration. Outer walls form a lip aroundthe outer annular raised portion and engage one another when the upperand lower bearing elements are placed aligned on top of one another. Thebearing elements also include a flattened end portion forming a planarwall extending vertically and forming an opening when the upper andlower bearing elements are placed together for receiving drive trainelements extending between motors and the gripping portion.

The bearing elements are renewable and are made of a low frictionmaterial that is suitable for machining. Therefore, when the bearingelements develop flaws or become worn, the elements may be removed, thesurfaces refinished and placed back into the tong for further use. Whenthe satisfactory surfaces are again achieved, the bearing elements maybe reused. To make up for lost thickness, shims may be placed in thetong housing and provide sufficient thickness for the bearing.

The large single bearing eliminates the need for a high number ofrollers or individual bearing elements and also provides for renewingand reusing the bearing elements. Moreover, the machinable materialprovides a low friction surface while also providing for refurbishingthe elements to extend the useful life of the bearing. The exactconfiguration and geometry may be varied depending upon the type of tongand its application. Moreover, the upper and lower bearing elements maybe mirror images of one another, or for some applications the bearingmay need a dedicated upper element and a dedicated lower element.Moreover, depending upon the gripping portion and tong used, the raisedportions and/or the outer lip may or may not be required. In someembodiment, lubrication channels are formed in the bearing to facilitatethe spread of lubricants.

These features of novelty and various other advantages that characterizethe invention are pointed out with particularity in the claims annexedhereto and forming a part hereof. However, for a better understanding ofthe invention, its advantages, and the objects obtained by its use,reference should be made to the drawings that form a further parthereof, and to the accompanying descriptive matter, in which there isillustrated and described a preferred embodiment of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

Referring now to the drawings, wherein like reference letters andnumeral indicate corresponding structure throughout the several views:

FIG. 1 is an exploded top perspective view of a tong housing with thetop of the housing removed with a bearing according to the principles ofthe present invention;

FIG. 2 is a top perspective view of the bearing and the tong housingshown in FIG. 1;

FIG. 3 is a top plan view of the bearing and the tong housing shown inFIG. 1;

FIG. 4 s a bottom plan of the bearing and housing shown in FIG. 2;

FIG. 5 is a top perspective view of an upper bearing element for thebearing shown in FIG. 1;

FIG. 6 s a bottom plan view of the upper bearing element shown in FIG.5;

FIG. 6A s a bottom plan view of an alternate embodiment of the upperbearing element;

FIG. 7 is a side elevational view of the upper bearing element shown inFIG. 5;

FIG. 8 is a top plan view of the upper bearing element shown in FIG. 5;

FIG. 9 is a side sectional view through the bearing and tong housingshown in FIG. 1;

FIG. 10 is an exploded view of the tong housing and bearing shown inFIG. 1 with shims added;

FIG. 11 is a side sectional view of the tong housing and bearing shownin FIG. 10;

FIG. 12 is a perspective view of a second embodiment of a bearingelement according to the principles of the present invention;

FIG. 13 s a bottom plan view of the bearing element shown in FIG. 12;

FIG. 14 is a side elevational view of the bearing element shown in FIG.12;

FIG. 15 is a top plan view of the bearing element shown in FIG. 12;

FIG. 16 is a perspective view of the bearing element shown in FIG. 12and a portion of the housing.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring now to the drawings and in particular to FIGS. 1-4, there isshown a tong 100 according to the principles of the present invention.The tong 100 is shown as an open face tong with an open end 110 but itcan be appreciated that the present invention is also applicable forclosed face tongs as explained hereinafter. The tong 100 includes a tonghousing 102 and a bearing 104. The tong housing 102 is shown with thetop cover portion removed for clarity. In addition, the tong 100includes various drive elements such as may be described in U.S. Pat.No. 8,281,691, entitled TONG ASSEMBLY, which is incorporated herein byreference. By modifying the shape and/or dimensions, the bearing of thepresent invention can be adapted for use with other types of tongs. Thehousing 102 includes a drive section 106 and a gripper section 108. Thetong housing 102 includes a base 112 and an outer wall 114. The grippersection of the housing 108 also includes a curved wall portion 116providing for rotation of gripping elements to manipulate tube or rodelements. The curved wall portion 116 also forms an opening to the drivesection 106 of the tong housing 102 to permit insertion of drive trainelements extending from the drive section 106 to the gripping elementsand the bearing section 108. This arrangement is also shown for a closedhead tong in FIG. 16, described herein below.

As shown in FIGS. 1 and 2, the bearing 104 includes an upper bearingelement 120 and a lower bearing element 140. The bearing elements 120and 140 are configured for engaging one another at their periphery alongan intermediate horizontal plane to form the bearing 104. In theembodiment shown, the upper bearing element 120 is identical to thelower bearing element 140. Therefore, the elements 120 and 140 may beinterchanged and a supply of a single type of replacement bearingelements may be used without requiring a dedicated top or bottomelement. However, in other embodiments the upper bearing element mayhave a different configuration than the lower bearing element.

Referring to FIGS. 5-9, the upper bearing element 120 is shown. It canbe appreciated however that upper bearing element 120 is identical tothe lower bearing element 140 in the embodiment shown and the upperbearing element 120 may simply be flipped over to provide a lowerbearing element 140. Although only the upper bearing element 120 will bedescribed, other than orientation, the description applies equally tothe lower bearing element 140. The bearing element 120 includes a base122 and defines an open end 124. The open end 124 leads to a center openportion 126. The center opening 126 is configured for receiving grippingelements that engage rods, tubing and other elements to be gripped androtated. Spaced radially outward from the inner edge of the base 122 ofthe center open portion is an inner annular raised portion 128. Theraised portion 128 extends downward for an upper bearing element 120 andan inner annular raised portion 148 extends upward for a lower bearingelement 140. An outer annular raised portion 130 is adjacent andradially outward from the inner annular raised portion 128. The outerannular raised portion 130 extends downward further than the innerannular raised portion 128 for an upper bearing element while an outerannular raised portion 150 extends upward for a lower bearing element140. An outer wall 132 forms a lip that extends yet further downwardthan the outer annular raised portion 130 on the upper bearing element120. An outer wall portion 152 for a lower bearing element 140 extendsupward and is configured to engage the outer wall portion 132 of theupper bearing element 120. The outer wall portions 132 and 152 thereforeform a vertically continuous curved wall when the bearing is assembled.The base 122, the inner annular raised portion 128, the outer annularraised portion 130 and the outer wall 132 form a terraced surface on theunderside of the upper bearing element 120. The bearing elements 120 and140 are generally annular but include a flattened end portion 134. Theend portion 134 forms a planar vertical surface with an opening 136 toprovide access for tong drive train elements that insert through theopening 136. This arrangement is seen more clearly in FIG. 16

In a configuration mirroring the upper bearing element 120, the lowerbearing element 140 also includes a bearing base 142, an open end 144,forming an open center 146. The lower bearing element 140 includes aninner annular raised portion 148 situated next to an outer annularraised portion 150 and an outer wall 152. The lower bearing elementincludes a flattened end portion 154 and a drive train access opening156. Therefore, the base 142, the inner annular raised portion 148, theouter annular raised portion 150 and the outer wall 152 form a terracedsurface on the top of the lower bearing element 140.

The bearing 104 operates in a very harsh environment and is subject towear. However, the bearing elements 120 and 140 are Phenolic typebearings made of a durable, yet low friction machinable material. Thebearing 104 may be made from a laminated plastic material that mayinclude dry lubrication compounds. Suitable Phenolic bearing materialsare available from ScanPac Mfg., Inc. of Menomonee Falls, Wis.Therefore, the bearing 104 may be removed and the elements 120 and 140machined if necessary to maintain smooth bearing surfaces. If too muchthickness is lost, one or more shims 160 may be inserted against thebase 122 and/or the base 142, as shown in FIGS. 10 and 11. The shims 160are also made of a durable low friction material and maintain anappropriate height for the bearing 104. Use of shims extends the life ofthe bearing and provides for reuse of bearing elements rather than asingle use and disposal of the bearing elements.

For some applications, further lubrication may be utilized. As shown inFIG. 6A, the bearing element 120 may be configured to include one ormore lubrication channels 180, 182 and 184. In the configuration shown,a lubrication channel 180 is formed in the outer annular raised portion130, a lubrication channel 182 is formed in the inner annular raisedportion 128 and a lubrication channel 184 is formed in the base 122. Itcan be appreciated that fewer and more channels may be utilized fordifferent bearings and for some applications. Moreover, the lubricationchannels may be located and oriented in different configurations tofacilitate distribution of lubricants to various places requiringadditional lubrication.

As shown in FIGS. 12-15, a second embodiment is shown of a bearing 200suitable for use with a closed face tong. The bearing element 200, shownas an upper bearing element in FIG. 12, may be reversed for use as alower bearing element. However, in some applications the upper and lowerbearing elements may have a different configuration. The closed facebearing element 200 includes a base 202 forming a center opening 204.The closed face bearing element 200 includes an outer wall 206 thatextends from both ends of a flattened vertically planar portion 208. Theflattened portion 208 provides an opening 210 to receive a gear 118, asshown in FIG. 16. The closed face bearing 200 also includes alignmentholes 212 through the base 202. As with the open face tong bearing 104,the closed face tong bearing 200 is configured so that the edges of theouter wall 206 meet and form a continuous curving outer wall portionwhen the upper bearing element and the lower bearing element are settogether.

It may also be appreciated that a machinable bearing may take othersimilar configurations for use with multiple types of tongs usedthroughout the industry. Moreover, the shims may also be configureddifferently to accommodate for the different sizes and applications forthe tong bearings.

It is to be understood, however, that even though numerouscharacteristics and advantages of the present invention have been setforth in the foregoing description, together with details of thestructure and function of the invention, the disclosure is illustrativeonly, and changes may be made in detail, especially in matters of shape,size and arrangement of parts within the principles of the invention tothe full extent indicated by the broad general meaning of the terms inwhich the appended claims are expressed.

What is claimed is:
 1. A renewable bearing for a tong, the tongincluding a housing and an engagement assembly, the bearing comprising:a monolithic upper bearing element having a substantially planar uppersurface; a monolithic lower bearing element having a substantiallyplanar lower surface, the upper and lower bearing elements beingconfigured to mount inside the housing with a substantially same outerhorizontal profile as the upper bearing element; the upper bearingelement and the lower bearing element defining a central open area; theupper bearing element and the lower bearing element having an innersection, wherein when assembled, the inner sections of the upper bearingelement and the lower bearing element define a radial recess opening tothe central opening and configured for receiving the engagementassembly; the upper bearing element and the lower bearing element havingan outer section wherein when assembled, the outer sections of the upperbearing element and the lower bearing element form a bearing portionradially intermediate the engagement assembly.
 2. A renewable bearingaccording to claim 1, wherein the bearing comprises a machinablematerial.
 3. A renewable bearing according to claim 1, wherein thebearing comprises a machinable material.
 4. A renewable bearingaccording to claim 1, further comprising a shim intermediate the bearingand the tong housing.
 5. A renewable bearing according to claim 1;wherein the upper bearing element is a mirror image of the lower bearingelement.
 6. A renewable bearing according to claim 4, wherein the shimhas a profile matching the profile of the upper bearing element or thelower bearing element.
 7. A renewable bearing according to claim 1;wherein at least one of the upper bearing element or lower bearingelement comprises a lubrication channel.
 8. A method for using a bearingfor a tong, the bearing including: a monolithic upper bearing elementhaving a substantially planar upper surface; a monolithic lower bearingelement having a substantially planar lower surface, the upper and lowerbearing elements being configured to mount inside the housing with asubstantially same outer horizontal profile as the upper bearingelement; the upper bearing element and the lower bearing elementdefining a central open area, and the upper bearing element and thelower bearing element having an inner section, wherein when assembled,the inner sections of the upper bearing element and the lower bearingelement define a radial recess opening to the central opening andconfigured for receiving the engagement assembly; the upper bearingelement and the lower bearing element having an outer section whereinwhen assembled, the outer sections of the upper bearing element and thelower bearing element form a bearing portion radially intermediate theengagement assembly; the method comprising: removing the bearingelements reconditioning surfaces of the bearing elements; replacing thebearing in the tong; adding one or more shims intermediate the tong andthe bearing.
 9. A method for using a bearing according to claim 8,wherein the one or more shims have a periphery matching the periphery ofthe bearing elements.
 10. A method for using a bearing according toclaim 8, wherein the bearing comprises a machinable material.
 11. Amethod for using a bearing according to claim 8, wherein the bearingcomprises a phenolic bearing.
 12. A method of using a bearing accordingto claim 8, comprising placing at least one shim intermediate the planarsurface of the bearing and the tong.
 13. A method of using a bearingaccording to claim 8, wherein the upper bearing element is a mirrorimage of the lower bearing element.
 14. A method of using a bearingaccording to claim 8, further comprising forming a lubrication channelin the bearing.